Management of ancillary content delivery and presentation

ABSTRACT

Embodiments of the present invention address delivery of content, including advertising, in an online or networked digital environment. Undesirable content or content that needs to be removed from the digital environment may be eliminated through invocation of a ‘kill switch’ that terminates further delivery of the aforementioned content. The ‘kill switch’ may also eliminate certain instantiations of that content already delivered to end-user client devices. In order to lessen the need for termination of content following delivery to the digital environment, content developers and content providers may view content scheduled for delivery in digital environment ‘mock ups’ prior to actual delivery. Content developers and content providers, too, may control certain attributes related to content scheduled for delivery to further obviate post-delivery termination or modification.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation and claims the priority benefit of U.S. patent application Ser. No. 12/782,678 filed May 18, 2012, which will issues as U.S. Pat. No. 8,763,090 on Jun. 24, 2014, which claims the priority benefit of U.S. provisional application No. 61/233,019 filed Aug. 11, 2009, the disclosure of which is incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention generally relates to online content delivery. More specifically, the present invention relates to managing delivery of ancillary content in a digital environment, including the termination of content delivery as well as the pre-delivery preview and control.

2. Description of the Related Art

Content delivery is increasingly network or online based whereby a user accesses a service provider over a communications network via an end-user client device. The service provider then delivers content to the end-user client device via a network connection. In many instances, this content includes music, movies, and video game content for either live, on-line game play or static single player engagement. Delivered content may be entirely on-line based (e.g., a streamed or downloaded movie) or may be delivered in conjunction with a traditional storage medium such as a DVD or CD. An end-user client device may execute, for example, a video game from a DVD and request certain portions of the video game from the service provider such as updated game information, including levels and in-game content. Content such as interviews, bonus performance, lyrics, or album information may be similarly retrieved with respect to music and video content otherwise maintained in a more traditional storage medium.

In many instances, the content delivered by the service provider concerns ancillary content such as ‘bonus’ content or advertisements that are related, but not critical to enjoyment of the primary content such as the video game or music video. The primary content is often developed, refined, and edited over the course of several months or years before it is delivered to the end-user. Because of this long development cycle, the primary content often represents a finished and polished final product. In many instances, the ancillary content is developed ‘spur of the moment’ to correspond with cultural trends, recent events, or then existing consumer demand. The ancillary content is often time sensitive and does not experience the same degree of development, refinement, and editing as the corresponding primary content.

Because of the shortened development cycle, ancillary content may often suffer from a number of developmental defects. These defects include delivery of content that might suggest a proper combination with primary content in the conceptual phase, but often proves to be less than ideal in terms of actual delivery and presentation. For example, an advertisement for a video game for survival in a post-nuclear-apocalypse game might ‘sound good’ in development, but be difficult to discern or understand when placed into a corresponding game environment where it is actually encountered by end-users. As such, there is a need in the art to better understand the appearance and control the interaction and integration of certain ancillary content in a digital environment.

Of perhaps even greater concern is when ancillary content is delivered for insertion into primary content and the ancillary content proves to be offensive or sometimes illegal in a particular community or jurisdiction. For example, energy drinks are popular throughout many parts of the world. A particular brand of energy drink is banned in France, Denmark, and Norway, however, due to perceived high levels of caffeine and other stimulants. France also bans other certain vitamin-fortified foods including certain brands of yogurt and cereal. Notwithstanding what might be an otherwise mundane or run-of-the-mill advertising campaign for any one of those products, the very proffering of that product for purchase may in fact violate laws of a particular country. As such, there is a need to remove certain offensive or illegal content from a digital environment.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a networked digital environment through which ancillary content, including advertisements, may be delivered to end-users.

FIG. 2 illustrates a digital video game environment allowing for placement of a variety of advertisements.

FIG. 3A illustrates a networked digital environment delivering content.

FIG. 3B illustrates the networked digital environment of FIG. 3A following invocation of a kill switch.

FIG. 4 illustrates a method for management of content in a networked digital environment.

DETAILED DESCRIPTION

Embodiments of the present invention address delivery of content, including advertising, in an online or networked digital environment. Undesirable content or content that needs to be removed from the digital environment may be eliminated through invocation of a ‘kill switch’ that terminates further delivery of the aforementioned content. The ‘kill switch’ may also eliminate certain instantiations of that content already delivered to end-user client devices. In order to lessen the need for termination of content following delivery to the digital environment, content developers and content providers may view content scheduled for delivery in digital environment ‘mock ups’ prior to actual delivery. Content developers and content providers, too, may control certain attributes related to content scheduled for delivery to further obviate post-delivery termination or modification.

FIG. 1 illustrates a networked digital environment 100 through which ancillary content, including advertisements, may be delivered to end-users. The digital environment 100 of FIG. 1 illustrates a content server 110 and mediation server 120, both of which are communicatively coupled to a communications network 130. The digital environment 100 also includes various end-user client devices 140A . . . C, which may communicate with the content server 110 and mediation server 120 over network 130. The digital environment 100 may also include a reporting server 160 as well as a universe manager 170. End-user client devices 140A . . . C may also be organized into regions, zones, or some other cognizable classification (150A . . . C).

Content server 110 hosts and distributes content over network 130. Content server 110 includes standard computing components such as network and media interfaces, computer-readable storage (memory), and processors for executing instructions that may be stored in memory. Content server 110 delivers various types of content to end-user client devices 140A . . . C. Examples of content are media such as music and movies as well as video game content (e.g., game downloaded over a network as well as live, networked games), which may sometimes be referred to as primary content.

Content is further inclusive of ancillary content such as advertising and/or content to be embedded within primary content. For example, an end-user client device 140A may be executing a video game (primary content), which may be downloaded over a network or from a computer-readable storage medium executed by the end-user client device 140A (e.g., a DVD). During execution of the video game, certain flags, identifiers, tags, or markers may be present in the game data indicating the need to insert ancillary content such as advertising into a particular asset or object within the game. Following negotiations with mediation server 120, the end-user client device 140A may contact content server 110 over communications network 130 to download the ancillary content. Content server 110 then provides the requested content to the end-user client device 140A for insertion into the appropriate portion or asset of the video game environment as is otherwise indicated by the aforementioned flags, tags, identifiers, or markers.

FIG. 2 illustrates a digital video game environment 200—a cityscape—allowing for placement of a variety of ancillary content, including advertisements. The cityscape game environment 200 may reflect any number of objects and structures as may be found in a city environment such as buildings, vehicles, and roadways. Certain objects may also appear in the video game environment 200 surrounding the city, such as airplanes and the like. While a cityscape is depicted in FIG. 2, any number of different video game environments may be utilized within the scope of the present invention including a race-track and grandstands or a sports arena or stadium.

In the case of the cityscape of FIG. 2, part of the realism of the digital video game environment 200 is attributed to various types of signage, specifically advertisements, trade names, and trademarks or corporate logos (collectively referred to as advertisements) that indicate the source or quality of certain goods and/or services. Various structures in the video game environment 200 of FIG. 2 exhibit numerous types of signage and advertisements 210 a . . . h.

For example, advertisement 210 a is an advertisement as may be found on the side of a taxi-cab. The advertisement may be the taxi-cab company name and phone number or for a particular good or service in the region serviced by the taxi-cab (e.g., a night club). Advertisement 210 b is an advertisement as may be found on the side of a bus, which may be for the local newspaper, a local radio show, or an upcoming movie. Advertisement 210 c is found on the side of an industrial vehicle and may be for a particular shipping company (e.g., a moving company) or for the name of the company whose cargo is being shipped (e.g., a furniture company).

Advertisements may also be on billboards as in the case of advertisements 210 d and 210 e. Such billboards may be alongside a road (like advertisement 210 d) or may be atop a building (like advertisement 210 e). Any variety of goods or services may be found on such billboards as is the case in the real world. Signage and related advertisements and indicia of sponsorship or ownership may also be found on the face of a building (like advertisement 210 f), which could reflect the name of the company occupying the building or may also be a poster of some sort applied to the face of a building that may be permanent or temporary (like advertisement 210 g).

Advertisements may be found in a variety of other mediums in the video game environment 200 such as skywriting, banners that follow behind an airplane (like advertisement 210 f), or on the actual body of the airplane or a vehicle (e.g., painted on the body or frosted on the glass versus an affixed sign or placard). Certain advertising effects may be achieved through audio advertising over the radio or a loudspeaker or the spoken word of other characters in the video game environment 200.

Advertising ‘tags’ in a particular asset may reflect not only the space in a game environment 200 where advertising content may be ‘inserted’ but may also reflect information such as size limitations, coloring and shading requirements, pointers to variables that track state and impression data, functions and programs associated with the advertisement, hyperlinks, mini-games associated with the advertisement, user-profile filters and, in some embodiments, even advertising relevance. Various parties may impose and apply rules and metadata related to the ‘tagging’ of assets as well as the advertising content that is ultimately inserted into these assets. A further discussion concerning variables and true/false markers as they pertain to various forms of ancillary content is presented in further detail below.

Advertising ‘tags’ may also be associated with other visual formats such as audio and video. For example, a television in a video game may be ‘tagged’ as to reflect that the user tuning the television to a particular channel will cause a full motion video advertisement to be streamed. Various other advertisements may be streamed or rendered on additional channels subject to the whim of the game designer and the extent of ‘tagging’ of assets for advertisement introduction. Similar attributes may be reserved for providing real-time programming and the like (e.g., short films, movie previews and so forth).

Similarly, audio may be ‘tagged’ for advertising purposes. For example, if a user plays a video game with a radio (e.g., in an automobile), the game designer may create different stations whereby actual music from actual musical artists is played. That music may be interspersed with various advertisements as one might hear over the radio in the real-world. Similarly, the actual music a user listens to may be a dynamic play list as in the case of a real-world radio station instead of a one-time, static soundtrack. In that way, the user may play the game today or five years from now and be able to listen to not only relevant advertisement but relevant music that is current and popular as of the day the user plays the game.

Returning to FIG. 1, the digital environment 100 also includes mediation server 120. Mediation server 120 includes standard computing components such as network and media interfaces, computer-readable storage (memory), and processors for executing instructions that may be stored in memory. Mediation server 120 cooperates with content server 110 to allow for delivery of content—both primary (e.g., video game or movie content) as well as ancillary (e.g., advertisements)—to end-user client devices 140. In some embodiments, the functionalities of multiple servers may be integrated into a single server. Any of the aforementioned (or subsequently referenced) servers or an integrated server may take on certain client-side, cache, or proxy server characteristics. Any particular integration (or lack thereof) may depend on the particular network placement of the server or certain configurations of the server.

Requests for content-related services in digital environment 100 are initially mediated by the mediation server 120. Based on information provided in a request for content from end-user client device 140, the mediation server 120 determines a set of permissions and provides configuration information to the end-user client device 140 to allow for the requested service (i.e., delivery of content) in accordance with the set of permissions and other content settings and limitations as identified by the end-user client device 140.

The set of permissions may be based on market segment information indicated by information included in the request. Market segment may refer to geographic location, region, type of end-client device 140, user information, and various combinations of the foregoing. For example, a particular service option may be available only to users and the corresponding end-user client device 140 in a particular geographic location, which may correspond to region 150A . . . C.

Alternatively, there may be multiple service providers for the requested service or a service provider may be associated with multiple servers or addresses. A particular service provider (e.g., content server 110) is assigned to the end-user client device 140 based on geographic location (e.g., region 150A). The mediation server 120 generates configuration information based on whether the end-user client device 140 is located in a particular region 150A. Alternatively, a service may only be available on certain end-user client devices 140 (e.g., brand, model, or presence of accessory devices) or to users of a certain age. These various classifications may be used in the place of a region 150A . . . C, which might otherwise encompass a certain physically definable locality. That geographic locality may be defined in terms of borders or other means, including Internet Protocol addresses or region coding as might be found in a DVD player.

Mediation server 120 sends the configuration information to the end-user client device 140. Such configuration information may include information regarding an identified service provider (e.g., content server 110), how to communicate with the identified service provider, information regarding the requested service, and service options. Configuration of the end-user client device 140 allows for communication to commence between the end-user client device 140 and service provider (e.g., content server 110). More specifically, such configuration may allow for the requested service to be provided to the end-user client device 140 in accordance with the set of identified permissions.

In addition to configuring the end-user client device 140 to receive the service from the service provider (e.g., content server 110), the configuration information may also determine what information is tracked and reported with respect to activity associated with the service. For example, a service may include advertising for display to a user of the end-user client device 140A. Any activity involving such advertising (e.g., advertisement impressions) may be tracked and reported based on the set of permissions embodied in the configuration information and determined by the mediation server 120. For example, the set of permissions may indicate parameters for tracking and evaluating advertising impressions (e.g., a game character must be within a certain distance or interact with an advertisement for an impression to count), quality factors, reporting parameters (e.g., daily, weekly, monthly, upon request, upon achieving a benchmark), and any combination of the foregoing. The set of permissions may also apply to market segment information (e.g., certain parameters may be associated with a region or classification 150A . . . 150C).

Communications network 130 may be a local, proprietary network (e.g., intranet) and/or may be a part of a larger wide-area network. The network 130 may be a local area network (LAN), which may be communicatively coupled to a wide area network (WAN) such as the Internet. The Internet is a broad network of interconnected computers and servers allowing for the transmission and exchange of Internet Protocol (IP) data between users connected through one or more network service providers. Examples of network service providers are the public switched telephone network, a cable service provider, a provider of digital subscriber line (DSL) services, or a satellite service provider. Communications network 130 allows for communication between the various components of the digital environment 100.

End-user client device 140A . . . C may be one of any number of different electronic client devices such as an electronic gaming system, a general-purpose computer, a set-top box, a Blu-Ray® player, a mobile device, or a display device with network connectivity (e.g., a digital billboard). End-user client device 140A . . . C may be a home entertainment system such as a PlayStation® 3 from Sony Computer Entertainment Inc. End-user client device 140A . . . C may also be a home media center capable of playing, for example, digital video discs (DVDs) or other optical, flash or on-demand media.

End-user client device 140A . . . C may be configured to access data from other storage media, such as memory cards or disk drives as may be appropriate in the case of downloaded content. As such, an end-user client device 140A . . . C is inclusive of any device capable of receiving primary and/or ancillary content over a network or other communications means (e.g., a synchronization operation with another computing device), storing that content locally at the end-user client device 140A . . . C (or at a storage device coupled to the end-user client device 140A . . . C such as flash card memory) and exchanging data with a server configured for such exchanges.

End-user client device 140A . . . C may be associated with a unique device identifier. During a use of the end-user client device 140A . . . C, a user or manager may register (either manually or through an automatic exchange of data over network 130) the end-user client device 140A . . . C (and device identifier) with a database or server. The end-user client device 140A . . . C may be registered and identified thereafter by reference to the device identifier, a corresponding user identifier, or both. The server stores a device identifier, a corresponding user identifier (or identifiers), or both. End-user client device 140A . . . C includes standard computing components such as network and media interfaces, computer-readable storage (memory), and processors for executing instructions that may be stored in memory.

End-user client device 140 may be organized into zones or regions (150A . . . 150C). These regions or zones, as noted above, may be based on physically defined regions such as continents, countries, or even states, and cities so long as the end-user devices 140A . . . C within those zones may be properly assigned to a zone or region. These assignments may be based on information such as network service provider (e.g., certain providers only operate in certain countries), IP addresses, or even a physical address associated with an end-user device 140 as might occur during registration of the device. The zones or regions may alternatively be considered classifications that are not dependent upon a particular geographic definition. In such an instance, the classification may be with respect to gender, age, language, or some other identifiable (either expressly or inherently) characteristic.

Zones 150A . . . C may be defined at the content server 110, mediation server 120, or universe management server 170 as further described below. These definitions may be relevant with respect to ensuring that particular content is delivered to a particular audience. For example, ancillary content that advertises women's hygiene products is likely to be uninteresting for a 12-year old male playing a video game. As such, the service provider associated with content server 110 will want to ensure that its advertising is delivered to those end-user client devices 140 that are associated with females of a certain age. As such, a zone or classification 150 may be developed and applied that corresponds to that particular audience. Content from content server 110 may then be directed to that particular zone or audience. The mediation server 120 may likewise be involved in this process with respect to directing a particular end-user client device 140 to a particular content server 110 for delivery of content, that end-user client device 140 belonging to a particular zone or classification 150.

Information regarding user activity and interaction with a service may be collected at end-user client device 140 and reported to an optional reporting server 160. Reporting server 160 collects the information, which can then be used to generate reports to service providers, including an entity hosting the network environment 100. Reporting server 160 may also collect information directly from service providers such as content server 110. Reported information may include information related to delivery of content, impressions of content experienced at an end-user client device 140, as well information related to deliver and/or impressions from particular zones or classifications 150. The type of information collected and reported may be managed through content or mediation servers 110 and 120 as well as universe manager 170.

Network environment 100 may optionally include a universe management server 170. Universe management server 170 may be a computing device associated with an entity hosting the network environment 100. Through universe management server 170, the host may receive reports from reporting server 160 including the same or additional information as content providers. Universe manager 170 may also be used to reconfigure or change certain settings at the mediation server 120. In some instances, a network environment 100 may include a number of mediation servers 120. Universe manager 170 may assign responsibilities of certain mediation servers 120 to certain regions (150) or otherwise reconfigure mediation server 120 with respect to how it interacts with content server 110. Universe manager 170 may also be used to invoke kill switch functionality or to realign zone configurations 150.

FIG. 3A illustrates a networked digital environment 300 delivering content. The environment 300 of FIG. 3A might otherwise correspond to the environment 100 of FIG. 1. In environment 300, an end-user client device 140 is activated. The end-user client device 140 begins executing a disc embodying content or downloading primary content from a streaming video server or other content provider. During execution, certain code is processed indicating that it will be necessary to bring in ancillary content for insertion into the presentation of content at the end-user client device 140.

In accordance with the processed instructions, the end-user client device 140 will seek to communication with a mediation server 120. As a part of the communication from the end-user client device 140, an indication is made with respect to the nature of the content being displayed at the end-user client device and what type of ancillary content may be required. The mediation server 120 will process this and other provided information to make a determination with respect to which of any number of content servers 110 should be servicing the end-user client device 140.

In some instances, a single content server 110 may provide all content for a particular end-user client device 140 displaying particular digital content. This single content server 110 may be tasked with a particular title or genre of game or movie. Similarly, a content server 110 may be tasked with servicing a particular zone, region, or classification 150 with such classification initially being determined by a mediation server 120 during initial negotiations between the end-user client 140 and the mediation server 120. Some content servers 110, too, may be tasked with providing default content as may be appropriate should a particular advertiser later discontinue an advertising campaign or there is a need to terminate delivery of particular content from a particular content server 110.

Following initial mediation activities between the end-user client 140 and the mediation server 120, the mediation server 120 directs the end-user client 140 to the appropriate content server 110 for delivery of the appropriate elements of content. The mediation server 120 may provide instructions for all potential content downloads or may only provide instructions for a requested set of content downloads. In this regard, the end-user client device 140 may contact the mediation server 120 any number of times during an online session.

The end-user client device 140, after connecting to the appropriate content server 110 as directed by the mediation server 120, then begins to receive content. Content may be specific to a game, to a part of a game, to a user, to a classification of user, to a particular geographic area (e.g., a zone 150), or any combination of the foregoing depending on certain information exchanged by and between the mediation server 120 and end-user client device 140 during mediation. The delivery of content may depend upon the configuration of the end-user client device 140 following mediation with the mediation server 120 with respect to certain permissions as to allowed and prohibited content. Similarly, the end-user client device may be directed to a particular content server 110 tasked with delivering certain content that is not prohibited content.

As shown in FIG. 3A, end-user client 140A and 140B are receiving content from content server 110 with respect to a particular product associated with a particular zone 150A. End-user clients 140C and 140D, however, are receiving certain content from content server 110 based on classification of the user (e.g., under 18) 150B. End-user client 140E is receiving default content as the client device is displaying primary content that is associated with ancillary content that is no longer available (classification 150C).

FIG. 3B illustrates the networked digital environment of FIG. 3A following invocation of a kill switch. For the sake of clarity, reference to a kill switch is colloquial and refers to functionality and not a physical apparatus although a computing device would ultimately be necessary to invoke kill switch functionality. In some instances, it may be necessary to terminate the delivery of content because of a presentation issue (e.g., the content does not integrate well into a particular environment), a communal sensitivity issue (e.g., particular content might be deemed as offensive), or a legal issue (e.g., the content violates one or more laws of a particular jurisdiction).

In the event a termination of content is necessary, an authorized entity might introduce a command to terminate content delivery (i.e., invoke the kill switch) at the universe manager 170. While cessation of content delivery may occur at the content server 110 by removing the content from a library of available content, the service provider associated with, for example, illegal content may not immediately be aware of the illegality of the content. In such an instance, the operator of the network 100 as a whole—and who might have legal obligations to ensure removal of the content notwithstanding it not being their content—can provide instructions to a mediation server 120 or servers to discontinue directing end-user client devices 140 to a particular content server 110 that is delivery the broken, offending, or illegal content.

Further, and in the interest of removing the content, but still providing a enjoyable gaming experience, it might be necessary to replace the offending content with some temporary replacement content. The content provider, however, may need to seek authorization from the operator of the network to introduce new content. In such an instance, the content provider will need to work in cooperation with the authority operating the universe manager to approve the content and have a mediation server 120 provide proper configuration instructions to an end-user client device 140 to allow for re-direction and subsequent delivery of the replacement content or risk particular advertisement tags as showing up ‘blank’ or ‘empty.’

FIG. 4 illustrates a method for management of content in a digital environment 400. In step 410, a mediation server enters into an authentication operation with a communicating end-user client device. As a part of the communication and subsequent authentication operation, the mediation server receives information useful to authentication and mediating the content delivery process. This might include information concerning the identification of the end-user client device, the identity of a user of the end-user client device, particular content being executed by the end-user client device, various permissions concerning access to content, and particular membership or allocation to groups or zones.

The end-user client device might make this initial communication with the mediation server following the local processing of primary content or instructions related to that content that indicate the need to contact the mediation server for additional ancillary content. Information related to contacting the mediation server may be embedded in firmware at the end-user client device or as a part of the executed instructions in a computer-readable storage medium. These instructions or other information might likewise identify what information is to be conveyed to the mediation server.

In step 420, the mediation server provides configuration information to the end-user client device following processing of the information provided by the end-user client device. This configuration information is used by the end-user client device to subsequently contact a service provider delivering content, which may include ancillary advertising content as well as primary content including audio, video, or a combination thereof. The end-user client device, following receipt and execution of this configuration information, contacts the appropriate content server or servers for the requested content.

In step 430, the mediation server receives an instruction to activate kill switch functionality. The kill switch functionality may be implemented through software stored in memory of the mediation server. Upon execution of the software instructions related to kill switch functionality by a processing device, certain content provided over the network may be managed to prevent further delivery and, in some instances, to manage that content already delivered. The instructions to invoke kill switch functionality may be received over a network from the universe manager, directly at the mediation server, or through computing device communicatively coupled to the mediation server and allowing for provisioning of instructions related to invoking the functionality.

In step 440, the mediation server generates new configuration information corresponding to the invocation of kill switch functionality. This new configuration information may be uploaded to the mediation server as part of a complete ‘configuration package’ meant to address the management of certain information being delivered over the network. The new configuration information may also be generated at the mediation server as part of a software routine that receives certain input related to content requiring termination (e.g., identity of the information, classes of users who should not received the information, IP address of a content server providing the content at issue) and then creates a new configuration set corresponding to the parameters provided as a part of invocation of said functionality.

Following generation of the new configuration information, upon a subsequent request for mediation by an end-user client device, the end-user client will no longer receive configuration information that would allow it to obtain the content whose provisioning is being terminated. For example, if an end-user client is executing a particular video game, the video game may include an asset ‘tagged’ for insertion of ancillary advertising content. The end-user client would then contact the mediation server, receive configuration information, and then subsequently contact the appropriate content server for delivery of that ancillary content as corresponding to that particular tagged asset. If the content initially associated with that particular asset later is discovered to be undesirable, offensive, or illegal, it will become necessary to terminate delivery of the ancillary content in question.

Following invocation of the kill switch functionality, a second or later mediated end-user client device will receive a new configuration package that may bypass communication with the content server providing the content in question. As a result, the end-user client device will not receive the ancillary content that required invocation of the kill switch. The end-user client device may be directed to another server—a server not having the problematic content—for ancillary content provisioning. If another server is not available, the end-user client may simply be unable to download content and advertising assets are left blank, reflect an error message, or revert to original default content such as a static ‘all purpose’ advertisement that may be related to the content or producer of the content.

In some instances, however, the content server providing the content at issue may also be responsible for providing other types of content that are not questionable or problematic. In such an instance, the mediation server may provide a configuration package that allows the end-user client device to obtain ancillary content for all other assets, but not for the asset that would otherwise receive the content in question. The asset, in this particular example, may simply be left ‘blank’ or reflect an error message in that the desired content cannot be downloaded. The asset may also revert to a default ancillary content insertion.

In some instances, a content server may be on ‘stand by’ for delivery of generic ancillary content at all times in order to allow for insertion of some sort of ancillary content when the originally scheduled content needs to be removed. In this way, a particular gaming experience or digital content viewing experience is not interrupted due to the appearance of a ‘blank’ asset that would have otherwise received content. The actual content servers may have ‘stand by’ content at the ready in the event that other ancillary content need be removed.

The new configuration package reflective of invocation of kill switch functionality may also target only specific end-user client devices. For example, a particular advertising message may be appropriate in one country, but illegal in another. In such an instance, the mediation server will identify those end-user client devices originating from a particular country, region, or zone and manage delivery of content—including the non-delivery of the offensive content—as is necessary. The mediation server may operate on varying levels of granularity including by country, by city, by zip code, by IP address, by gender, by age range, by interest, or by any other classification that may allow for organization of end-user client devices into particular zones or classifications.

While new end-user client devices will not receive the ancillary content in question, certain end-user client devices will have previously contacted the content server and received a download of the problematic content. This problematic content may remain at the end-user client device until the end-user client device begins a new communication session with either the mediation server or the content server for new or updated ancillary content. In some instances, the offensive content may reside on the end-user client device for weeks at a time.

In some embodiments, a record may be maintained of what end-user client devices have received what content and when. This information may be maintained by a reporting server operating in conjunction with the content server. A report generated and maintained by the reporting server may be used to by the mediation server to proactively remove offensive or problematic content from an end-user client device.

For example, a reporting server may reflect that five end-user client devices downloaded offensive or illegal ancillary content prior to the kill switch being invoked and delivering a new configuration package that prevented further delivery of the problematic content. The reporting server may identify the five end-user client devices by user name, IP address, or some other means for identifying a particular computing device from amongst all computing devices currently only the network. The reporting server may also identify that while certain devices receive the content, that only a small percentage of those devices (e.g., those in a particular country or associated with a certain age range) need to be addressed with respect to having the content removed. Identification of end-client devices with problematic content may be identified in optional step 450.

In the event that a particular end-user client device with the problematic content is still in the network, the mediation server may proactively contact that end-user client device to provide a new configuration package that would trigger the end-user client device to contact a content server for new content that is not offensive or that otherwise resolved the problem that invoked the need for kill switch functionality. The first part of this operation may occur in optional step 460, whereby the mediation server utilizes a report from reporting server to search for those end-user client devices still on the network.

Identification may occur through a ping generated by the mediation server that queries the end-user client devices as to whether they are still on the network. Identification may also occur through a periodic ‘keep alive’ pulse that may be generated by either the end-user client device to maintain an open IP connection with one or more computing devices in the network. The ‘keep alive’ pulse may also be generated by a server providing regular information to the end-user client devices (e.g., related to game play) and similarly needing to maintain an IP connection.

Having identified the clients with problematic content in step 450 and subsequently locating those devices on the network in step 460, the mediation server pushes the new configuration package to the end-user client device in optional step 470. The end-user client device then receives the replacement ancillary content from the content server in optional step 480.

The replacement of content through kill switch functionality may be similar to a normal replacement of ‘stale’ ancillary content on the end-user client device. For example, a configuration package may normally identify that the end-user client devices needs to contact the content server on a particular schedule to check for new content. Similarly, the game or digital content being executed at the end-user client device and that invoked the initial communication with the mediation server may likewise instruct the end-user client device to contact the mediation server for a new configuration package on a periodic basis. Through kill switch functionality, however, the mediation server delivers the new configuration package notwithstanding a regular or prearranged scheduled that might otherwise be observed by the end-user client device.

In some embodiments, the mediation server may not contact the end-user client device and deliver a new configuration package. In some instance, the content server (in conjunction with the reporting server, which would identify those client devices with problematic content), may proactively push new content to the end-user client device without waiting for a request for new content from the device itself. As such, problematic content may be replaced in the background such that no interruption as to the realism of game play or observation of digital content such as a movie otherwise occurs.

An interface for controlling the interaction and integration of ancillary content in a digital environment may be provided. The interface may be generated through execution of an SDK at a computing device coupled to a content server in the network. Through the use of the SDK and the aforementioned interface, a content developer may control the appearance and/or interaction of content as it appears in the network and at end-user client devices that download the content from the content server.

Through such an interface, a content producer may select any number of variables from a library of available variables as may be obtained by a universe manager or other computing device tasked with provisioning the SDK and subsequent updates and revisions thereto. The SDK, in this regard, may be updated over time with new variables, removal of unpopular or unworkable variable, or to update software routines that are associated with implementing particular variable with respect to any particular piece of content.

Variables for inclusion in an SDK and accompanying interface may include weathering of content such that exposure to the elements may be portrayed (e.g., an outdoor sign exposed to weather), explosions or gunfire whereby content may appear to be damaged from weapon activity, scrolling whereby content may travel across a ticker or similar moving message display, and defacement such as graffiti or slung mud. These variables are exemplary and any number of other variables as may be conceived, authored, and embodied in an SDK may likewise be included.

Other variables such as allowing for popup windows, browser launches, follow up inquiries may also be included. For example, if a particular variable is implemented in an advertisement such as a browser launch, if a user interacts with the content during game play, a browser window may launch concurrent with game play to allow the user to learn more about a product or to obtain a sample of the same. Follow up communications, too, may be delivered to the use through invocation of a follow-up inquiry functionality. Information related to what information is tracked and sent to a reporting server may also be invoked through the interface.

Each variable is controlled through a true/false marker, which may be ‘ticked’ through interaction with the interface. The content producer may activate or deactivate any one of these different variable through the interface such that the variable is invoked or nullified following delivery to an end-user client device. Content is tied to any invoked or nullified variable once delivered to the end-user client device. New variables may be invoked, however, upon the end-user client device updating or renewing a content package as may occur through a regularly scheduled communication with the content server or as might result from kill switch functionality. For example, certain content may be delivered to users of a particular age with certain statistical tracking activated. This tracking may be illegal although the content itself is valid. Through kill switch functionality, the tracking variable may be deactivated in a subsequent content update or delivery.

Through the same or similar SDK, a content producer may preview their content in the network or a particular content environment before it is delivered. Through utilization of a pre-delivery sandbox, a content producer may have a better idea of what their content will look like in the environment thereby avoiding the need to subsequently update the content or invoke a kill switch functionality if particular content appears particular unappealing such that it works contrary to building and/or maintaining brand identity. The aforementioned sandbox, too, may be used to verify compliance with various legal issues or to allow for quality assurance review with a network host prior to the content actually going live in the network.

The present invention may be implemented in the context a variety of end user client devices. The present methodologies described herein are fully intended to be operable on any of such devices. The present invention may also be implemented with cross-title neutrality wherein an embodiment of the present system may be utilized across a variety of titles from various publishers.

Computer-readable storage media refer to any medium or media that participate in providing instructions to a central processing unit (CPU) for execution. Such media can take many forms, including, but not limited to, non-volatile and volatile media such as optical or magnetic disks and dynamic memory, respectively. Common forms of computer-readable media include, for example, a floppy disk, a flexible disk, a hard disk, magnetic tape, any other magnetic medium, a CD-ROM disk, digital video disk (DVD), any other optical medium, RAM, PROM, EPROM, a FLASHEPROM, any other memory chip or cartridge. The various methodologies discussed herein may be implemented as software and stored in any one of the aforementioned media for subsequent execution by a processor.

Various forms of transmission media may be involved in carrying one or more sequences of one or more instructions to a CPU for execution. A bus carries the data to system RAM, from which a CPU retrieves and executes the instructions. The instructions received by system RAM can optionally be stored on a fixed disk either before or after execution by a CPU. Various forms of storage may likewise be implemented as well as the necessary network interfaces and network topologies to implement the same.

While various embodiments have been described above, it should be understood that they have been presented by way of example only, and not limitation. The present descriptions are intended to cover such alternatives, modifications, and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims and otherwise appreciated by one of ordinary skill in the art. The steps of various methods may be performed in varying orders while achieving common results thereof. Various elements of the disclosed system and apparatus may be combined or separated to achieve similar results. The scope of the invention should be determined not with reference to the above description, but instead should be determined with reference to the appended claims along with their full scope of equivalents. 

What is claimed is:
 1. A method for mediating requests for content-related services, the method comprising: receiving a request for a location-dependent content-related service sent from an end-user client device, wherein the end-user client device is determined to be in a geographic location; assigning a location-dependent service provider from a plurality of service providers to provide the requested location-dependent content-related service to the end-user client device based on the determined geographic location of the end-user client device; generating, by way of a mediation server, configuration information based on an indication that the end-user client device is located in the geographic location, wherein the configuration information specifies whether the end-user client device has access to the requested location-dependent content-related service; sending, by way of the mediation server, the configuration information to the end-user client device; and using the configuration information to: provide the requested location-dependent content-related service over a communication network to the end-user client device in accordance with a set of identified permissions, wherein the set of permissions is based on the determined geographic location of the end-user client device, and determine what online information is tracked and reported with respect to online activity associated with the requested location-dependent content-related service on the end-user device.
 2. The method of claim 1, wherein the configuration information includes information regarding how to communicate with the service provider.
 3. The method of claim 1, further comprising receiving, at the mediation server, a request for a content-related service from an end-user client device, and wherein the configuration information includes information regarding the requested content-related service.
 4. The method of claim 1, wherein the configuration information includes information regarding service options.
 5. The method of claim 1, wherein the set of identified permissions indicates parameters for tracking and evaluating the activity associated with the requested content-related service.
 6. The method of claim 1, further comprising determining, by way of the mediation server, the set of identified permissions.
 7. The method of claim 6, wherein the set of identified permissions is generated based on geographic location information provided in a request for content-related service from the end-user client device.
 8. The method of claim 1, further comprising: assigning a service provider from a plurality of service providers to an end-user client device based on a type of end-user client device; and generating the configuration information, by way of a mediation device, based on an indication that the end-user client device is associated with the type of end-user client device.
 9. The method of claim 1, further comprising: assigning a service provider from a plurality of service providers to an end-user client device based on a user age; and generating the configuration information, by way of a mediation device, based on an indication that a user of the end-user client device is of the age.
 10. A system for mediating requests for content-related services, the system comprising: a mediation server that: receives a request for a location-dependent content-related service sent from an end-user client device, wherein the end-user client device is determined to be in a geographic location, assigns a location-dependent service provider from a plurality of service providers to provide the requested location-dependent content-related service to the end-user client device based on the determined geographic location of the end-user client device, generates configuration information based on an indication that the end-user client device is located in the geographic location, wherein the configuration information specifies whether the end-user client device has access to the requested location-dependent content-related service, and sends the configuration information to the end-user client device; and wherein the service provider uses the configuration information to: provide the requested location-dependent content-related service over a communication network to the end-user client device in accordance with a set of identified permissions, wherein the set of permissions is based on the determined geographic location of the end-user client device, and determine what online information is tracked and reported with respect to online activity associated with the requested location-dependent content-related service on the end-user device.
 11. The system of claim 10, wherein the configuration information includes information regarding how to communicate with the service provider.
 12. The system of claim 10, wherein the mediation server further receives a request for a content-related service from an end-user client device, and wherein the configuration information includes information regarding the requested content-related service.
 13. The system of claim 10, wherein the configuration information includes information regarding service options.
 14. The system of claim 10, wherein the set of identified permissions indicates parameters for tracking and evaluating the activity associated with the requested content-related service.
 15. The system of claim 10, wherein the mediation server further determines the set of identified permissions.
 16. The system of claim 15, wherein the mediation server determines the set of identified permissions based on geographic location information provided in a request for content-related service from the end-user client device.
 17. The system of claim 10, wherein the mediation server further: assigns a service provider from a plurality of service providers to an end-user client device based on a type of end-user client device; and generates the configuration information, by way of a mediation device, based on an indication that the end-user client device is associated with the type of end-user client device.
 18. The system of claim 10, wherein the mediation server further: assigns a service provider from a plurality of service providers to an end-user client device based on a user age; and generates the configuration information, by way of a mediation device, based on an indication that a user of the end-user client device is of the age.
 19. A non-transitory computer-readable storage medium having embodied there on a program, the program being executable by a processor to perform a method for mediating requests for content-related services, the method comprising: receiving a request for a location-dependent content-related service sent from an end-user client device, wherein the end-user client device is determined to be in a geographic location; assigning a location-dependent service provider from a plurality of service providers to provide the requested location-dependent content-related service to the end-user client device based on the determined geographic location of the end-user client device; generating configuration information based on an indication that the end-user client device is located in the geographic location, wherein the configuration information specifies whether the end-user client device has access to the requested location-dependent content-related service; sending the configuration information to the end-user client device; and using the configuration information to: provide the requested location-dependent content-related service over a communication network to the end-user client device in accordance with a set of identified permissions, wherein the set of permissions is based on the determined geographic location of the end-user client device, and determine what online information is tracked and reported with respect to online activity associated with the requested location-dependent content-related service on the end-user device. 